L'imagerie directe d'exoplanètes combine des techniques d'imagerie haute dynamique telles l'optique adaptative et la coronographie et permet d'analyser la lumière d'une exoplanète. L'étude de cette lumière par spectroscopie et/ou polarimétrie permet d'estimer des paramètres intrinsèques de la planète comme sa température et la composition chimique de son atmosphère. Cependant, les aberrations statiques et quasi-statiques de l'instrument dégradent la qualité des images enregistrées. Elles créent un bruit de speckles sur le détecteur, masquant ainsi l'image du compagnon peu lumineux par rapport à son étoile hôte. Pour pallier ce problème, nous proposons d'utiliser la Self-Cohérent Caméra (SCC) qui utilise la non-cohérence de la lumière stella...
International audienceContext. The two main advantages of exoplanet imaging are the discovery of obj...
International audienceContext. Direct imaging of exoplanets requires very high contrast levels, whic...
Context. In the context of exoplanet detection, the performance of coronagraphs is limited by wavefr...
Direct imaging of exoplanets requires high dynamical techniques as adaptive optics and coronagraphy ...
Context. Direct detection of exoplanets requires high dynamic range imaging. Coronagraphs could be t...
Direct imaging is a powerful tool for exoplanet atmosphere characterization. High performance of the...
International audienceDirect detection is a very promising field in exoplanet science. It allows the...
Direct imaging of exoplanets is very challenging because the planet is 10 4 to 10 10 fainter than th...
International audienceExtreme adaptive optics and coronagraphy are mandatory for direct imaging of e...
International audienceDetecting light from faint companions or protoplanetary disks lying close to t...
The Self-Coherent Camera is dedicated to the direct detection of exoplanets. This instrument can be ...
International audienceContext. The two main advantages of exoplanet imaging are the discovery of obj...
International audienceContext. Direct imaging of exoplanets requires very high contrast levels, whic...
Context. In the context of exoplanet detection, the performance of coronagraphs is limited by wavefr...
Direct imaging of exoplanets requires high dynamical techniques as adaptive optics and coronagraphy ...
Context. Direct detection of exoplanets requires high dynamic range imaging. Coronagraphs could be t...
Direct imaging is a powerful tool for exoplanet atmosphere characterization. High performance of the...
International audienceDirect detection is a very promising field in exoplanet science. It allows the...
Direct imaging of exoplanets is very challenging because the planet is 10 4 to 10 10 fainter than th...
International audienceExtreme adaptive optics and coronagraphy are mandatory for direct imaging of e...
International audienceDetecting light from faint companions or protoplanetary disks lying close to t...
The Self-Coherent Camera is dedicated to the direct detection of exoplanets. This instrument can be ...
International audienceContext. The two main advantages of exoplanet imaging are the discovery of obj...
International audienceContext. Direct imaging of exoplanets requires very high contrast levels, whic...
Context. In the context of exoplanet detection, the performance of coronagraphs is limited by wavefr...